Skip to main content

Achieving Ultimate Motion Precision Using Frameless Servo Motors

Frameless motors have proven their worth in robotic arm joints. But did you know they’re also ideal for use in compact actuators, submersible propulsion systems, electro-optical/infrared imaging gimbal systems and a variety of other applications that benefit from ultra-precise motion in the most compact mechanical design?

Discover the benefits, evaluate whether a frameless motor is the right choice, and learn how to embed it directly into your application — while minimizing design and manufacturing risks. From housing configuration to thermal management, feedback devices and more, this white paper can help you bring your innovative concepts to reality with confidence.

Fill out this short form

to view this White Paper

-OR-

Login / Register

to gain access to Kollmorgen content

Privacy Statement - By sending us your contact details you agree that your personal data/user behavior can be electronically stored and processed. If you no longer wish to receive the enewsletter, you can unsubscribe at any time.

CAPTCHA

Incorporating Frameless Motors Into an Environmentally Resilient Design

Daily washdowns, deep-sea submersion, high radiation, high vacuum, hazardous atmospheres: When a housed servo motor can’t provide the protection you need in a compact form factor, consider embedding a frameless servo motor. Read this white paper to learn how.

Learn More

Frameless Motors

Discover Kollmorgen's frameless motor range, designed for easy integration into your application, enhancing performance, efficiency and reliable motion solutions.
Learn More

Engineer the Exceptional

Learn how to engineer exceptional machines, robots and vehicles with the highest-performing, most reliable motors, drives, automation solutions and more.

Learn More

Related Resources

Incorporating Frameless Motors Into an Environmentally Resilient Design

Incorporating Frameless Motors Into an Environmentally Resilient Design >

Daily washdowns, deep-sea submersion, high radiation, high vacuum, hazardous atmospheres: When a housed servo motor can’t provide the protection you need in a compact form factor, consider embedding a frameless servo motor. Read this white paper to…
TBM2G Frameless Motors for Propulsion Systems and Extreme Environments

Tech Sheet: TBM2G Frameless Motors for Propulsion Systems and Extreme Environments >

Servo motors are often used in extreme environments — for example, submersible vehicle propulsion systems, spacecraft, semiconductor manufacturing under high-vacuum conditions, hygienic equipment subject to high-pressure washdowns, and more.
Embedding TBM2G Frameless Motors into Gimbal and Precision Actuator Systems

Tech Sheet: Embedding TBM2G Frameless Motors into Gimbal and Precision Actuator Systems >

A gimbal is a pivoting support that permits rotation of an object around an axis. Additional degrees of freedom can be obtained by combining or nesting two or more gimbals, with their axes of rotation at 90° apart.
Embedding TBM2G Frameless Motors into Compact Rotary Actuators

Tech Sheet: Embedding TBM2G Frameless Motors into Compact Rotary Actuators >

An electric rotary actuator produces rotary motion to drive a load. In its simplest form, a direct drive motor is coupled directly to the load. Often, rotary actuators also incorporate a gearbox to increase torque while reducing speed. Appropriate…
Have You Considered a Frameless Motor?

Have You Considered a Frameless Motor?  >

When most engineers think of a brushless DC servo motor, they’re likely to visualize a housing with a flange to accept mounting bolts, connectors to accept power and data cables, and a rotor shaft that couples to the load. That’s the most common…

Exoskeletons at Scale: Accelerating the Transition from R&D to Full-rate Production >

The exoskeleton market is still in its infancy — but evolving quickly and ripe with opportunity. It’s a double-edged sword for OEMs who must identify the most impactful applications and crack the code on full-scale production, which presents a new…
Advancing Exoskeleton Technology: Key Motion and Motor Design Considerations

Advancing Exoskeleton Technology: Key Motion and Motor Design Considerations  >

When it comes to exoskeletons, motion design and motor selection are make-or-break steps in the engineering process. Here we explore key considerations and insights for success.

Greater Comfort & Safe Mobility in Exoskeleton Design >

As the exoskeleton market evolves, how can OEMs design for greater comfort, mobility and reliability? Read the blog to learn more.

3 Tips to Accelerate Humanoids from Concept to Prototype to Production  >

Humanoid robots are projected to become a $6+ billion opportunity within the next 10 to 15 years.1 Many labs, research entities and startup companies have taken notice, and are rushing to develop concepts and prototypes ahead of the competition. But…